Problem. You have questions about the List collection in the .NET Framework, which is located in the System.Collections.Generic namespace. You want to see examples of using List and also explore some of the many useful methods it provides, making it an ideal type for dynamically adding data. Solution. This document has lots oftips and resources on the List constructed type, with examples using the C# programming language.
--- Key points: --- Lists are dynamic arrays in the C# language. They can grow as needed when you add elements. They are called generic collections and constructed types. You need to use < and > in the List declaration.
1. Adding values
Here we see how to declare a new List of int values and add integers to it. This example shows how you can create a new List of unspecified size, and add four prime numbers to it. Importantly, the angle brackets are part of the declaration type, not conditional operators that mean less or more than. They are treated differently in the language.
~~~ Program that adds elements to List (C#) ~~~
using System.Collections.Generic; class Program { static void Main() { List<int> list = new List<int>(); list.Add(2); list.Add(3); list.Add(5); list.Add(7); } }
Adding objects. The above example shows how you can add a primitive type such as integer to a List collection, but the List collection can receive reference types and object instances. There is more information on adding objects with the Add method on this site. [C# List Add Method- dotnetperls.com]
2. Loops
Here we see how you can loop through your List with for and foreach loops. This is a very common operation when using List. The syntax is the same as that for an array, except your use Count, not Length for the upper bound. You can also loop backwards through your List by reversing the for loop iteration variables. Start with list.Count - 1, and proceed decrementing to >= 0.
~~~ Program that loops through List (C#) ~~~
using System; using System.Collections.Generic; class Program { static void Main() { List<int> list = new List<int>(); list.Add(2); list.Add(3); list.Add(7); foreach (int prime in list) // Loop through List with foreach { Console.WriteLine(prime); } for (int i = 0; i < list.Count; i++) // Loop through List with for { Console.WriteLine(list[i]); } } }
~~~ Output of the program ~~~
(Repeated twice)
2
3
7
3. Counting elements
To get the number of elements in your List, access the Count property. This is fast to access, if you avoid the Count() extension method. Count is equal to Length on arrays. See the section "Clearing List" for an example on using the Count property.
4. Clearing List—setting to null
Here we see how to use the Clear method, along with the Count property, to erase all the elements in your List. Before Clear is called, this List has 3 elements; after Clear is called, it has 0 elements. Alternatively, you can assign the List to null instead of calling Clear, with similar performance. However, after assigning to null, you must call the constructor again.
=== Program that counts List (C#) ===
using System; using System.Collections.Generic; class Program { static void Main() { List<bool> list = new List<bool>(); list.Add(true); list.Add(false); list.Add(true); Console.WriteLine(list.Count); // 3 list.Clear(); Console.WriteLine(list.Count); // 0 } }
=== Output of the program ===
3
0
5. Copying array to List
Here we see an easy way to create a new List with the elements in an array that already exists. You can use the List constructor and pass it the array as the parameter. List receives this parameter, and fills its values from it.
--- Program that copies array to List (C#) ---
using System; using System.Collections.Generic; class Program { static void Main() { int[] arr = new int[3]; // New array with 3 elements arr[0] = 2; arr[1] = 3; arr[2] = 5; List<int> list = new List<int>(arr); // Copy to List Console.WriteLine(list.Count); // 3 elements in List } }
--- Output of the program ---
Indicates number of elements.
3
Notes on the example. It is useful to use the List constructor code here to create a new List from Dictionary keys. This will give you a List of the Dictionary keys. The array element type must match the type of the List elements, or the compiler will refuse to compile your code.
6. Finding elements
Here we an example of how you can test each element in your List for a certain value. This shows the foreach loop, which tests to see if 3 is in the List of prime numbers. Note that more advanced List methods are available to find matches in the List, but they often aren't any better than this loop. They can sometimes result in shorter code. [C# List Find Methods for Searching List- dotnetperls.com]
~~~ Program that uses foreach on List (C#) ~~~
using System; using System.Collections.Generic; class Program { static void Main() { // New list for example List<int> primes = new List<int>(new int[] { 2, 3, 5 }); // See if List contains 3 foreach (int number in primes) { if (number == 3) // Will match once { Console.WriteLine("Contains 3"); } } } }
~~~ Output of the program ~~~
Contains 3
7. Using capacity
You can use the Capacity property on List, or pass an integer into the constructor, to improve allocation performance when using List. The author's research shows that capacity can improve performance by nearly 2x for adding elements. Note however that this is not usually a performance bottleneck in programs that access data. [C# Capacity Property- dotnetperls.com]
TrimExcess method. There is the TrimExcess method on List as well, but its usage is very limited and I have never needed to use it. It reduces the memory used. Note: "The TrimExcess method does nothing if the list is at more than 90 percent of capacity". [List(T).TrimExcess Method- MSDN]
8. Using BinarySearch
You can use the binary search algorithm on List with the instance BinarySearch method. Binary search uses guesses to find the correct element much faster than linear searching. It is often much slower than Dictionary. [C# BinarySearch List- dotnetperls.com]
9. Using AddRange and InsertRange
You can use AddRange and InsertRange to add or insert collections of elements into your existing List. This can make your code simpler. See an example of these methods on this site. [C# List AddRange Use- dotnetperls.com]
10. Using ForEach method
Sometimes you may not want to write a regular foreach loop, which makes ForEach useful. This accepts an Action, which is a void delegate method. Be very cautious when you use Predicates and Actions, because they can decrease the readability ofyour code.
Another useful method. There is a TrueForAll method that accepts a Predicate. If the Predicate returns true for each element in your List, the TrueForAll method will return true also. Else, it will return false.
11. Using Join—string List
Here we see how you can use string.Join on a List of strings. This is useful when you need to turn several strings into one comma-delimited string. It requires the ToArray instance method on List. The biggest advantage ofJoin here is that no trailing comma is present on the resulting string, which would be present in a loop where each string is appended.
=== Program that joins List (C#) ===
using System; using System.Collections.Generic; class Program { static void Main() { // List of cities we need to join List<string> cities = new List<string>(); cities.Add("New York"); cities.Add("Mumbai"); cities.Add("Berlin"); cities.Add("Istanbul"); // Join strings into one CSV line string line = string.Join(",", cities.ToArray()); Console.WriteLine(line); } }
=== Output of the program ===
New York,Mumbai,Berlin,Istanbul
12. Getting List from Keys in Dictionary
Here we see how you can use the List constructor to get a List of keys in your Dictionary collection. This gives you a simple way to iterate over Dictionary keys, or store them elsewhere. The Keys instance property accessor on Dictionary returns an enumerable collection ofkeys, which can be passed to the List constructor as a parameter.
::: Program that converts Keys (C#) :::
using System; using System.Collections.Generic; class Program { static void Main() { // Populate example Dictionary var dict = new Dictionary<int, bool>(); dict.Add(3, true); dict.Add(5, false); // Get a List of all the Keys List<int> keys = new List<int>(dict.Keys); foreach (int key in keys) { Console.WriteLine(key); } } }
::: Output of the program :::
3, 5
13. Inserting elements
Here we see how you can insert an element into your List at any position. The string "dalmation" is inserted into index 1, which makes it become the second element in the List. Note that if you have to Insert elements extensively, you should consider the Queue and LinkedList collections for better performance. Additionally, a Queue may provide clearer usage ofthe collection in your code.
~~~ Program that inserts into List (C#) ~~~
using System; using System.Collections.Generic; class Program { static void Main() { List<string> dogs = new List<string>(); // Example List dogs.Add("spaniel"); // Contains: spaniel dogs.Add("beagle"); // Contains: spaniel, beagle dogs.Insert(1, "dalmation"); // Contains: spaniel, dalmation, beagle foreach (string dog in dogs) // Display for verification { Console.WriteLine(dog); } } }
~~~ Output of the program ~~~
spaniel
dalmation
beagle
14. Removing elements
The removal methods on List are covered in depth in another article on this site. It contains examples for Remove, RemoveAt, RemoveAll, and RemoveRange, along with the author's notes. [C# List Remove Methods- dotnetperls.com]
15. Sorting and reversing
You can use the powerful Sort and Reverse methods in your List collection. These allow you to order your List in ascending or descending order. Additionally, you can use Reverse even when your List is not presorted. There is more information on these topics, as well as sorting your List with LINQ on a property on this site. [C# Sort List Method, Sorting and Reversing Lists- dotnetperls.com]
16. Converting List to array
You can convert your List to an array of the same type using the instance method ToArray. There are examples of this conversion, and the opposite, on this site. [C# Convert List to Array- dotnetperls.com]
17. Getting range of elements
Here we see how you can get a range of elements in your List collection using the GetRange instance method. This is similar to the Take and Skip methods from LINQ, but has different syntax.
--- Program that gets ranges from List (C#) ---
using System; using System.Collections.Generic; class Program { static void Main() { List<string> rivers = new List<string>(new string[] { "nile", "amazon", // River 2 "yangtze", // River 3 "mississippi", "yellow" }); // Get rivers 2 through 3 List<string> range = rivers.GetRange(1, 2); foreach (string river in range) { Console.WriteLine(river); } } }
--- Output of the program ---
amazon
yangtze
18. Testing Lists for equality
Sometimes you may need to test two Lists for equality, even when their elements are unordered. You can do this by sorting both of them and then comparing, or by using a custom List equality method. This site contains an example of a method that tests lists for equality in an unordered way. [C# List Element Equality- dotnetperls.com]
19. Using List with structs
When using List, you can improve performance and reduce memory usage with structs instead of classes. A List of structs is allocated in contiguous memory, unlike a List of classes. This is an advanced optimization. Note that in many cases using structs will actually decrease the performance when they are used as parameters in methods such as those on the List type.
20. Using var keyword
Here we see how you can use List collections with the var keyword. This can greatly shorten your lines of code, which sometimes improves readability. The var keyword has no effect on performance, only readability for programmers.
~~~ Program that uses var with List (C#) ~~~
using System.Collections.Generic; class Program { static void Main() { var list1 = new List<int>(); // <- var keyword used List<int> list2 = new List<int>(); // <- Is equivalent to } }
21. Summary
Here we saw lots of examples with the List constructed type. You will find that List is powerful and performs well. It provides flexible allocation and growth, making it much easier to use than arrays. In most programs that do not have memory or performance constraints and must add elements dynamically, the List constructed type in the C# programming language is ideal.
List 类是 ArrayList 类的泛型等效类,某些情况下,用它比用数组和 ArrayList 都方便。
我们假设有一组数据,其中每一项数据都是一个结构。
{
public int Id;
public string DisplayText;
}
注意结构是不能给实例字段赋值的,即 public int Id = 1 是错误的。
List<Item> items = new List<Item>();
//添加
Item item1 = new Item();
item1.Id = 0;
item1.DisplayText = "水星";
items.Add(item1);
//添加
Item item2 = new Item();
item2.Id = 1;
item2.DisplayText = "地球";
items.Add(item2);
//修改
//这里使用的是结构,故不能直接用 items[1].DisplayText = "金星";,如果 Item 是类,则可以直接用。为什么呢?因为结构是按值传递的。
Item item = items[1];
item.DisplayText = "金星";
items[1] = item;